JP7224162B2 - Temperature detection device for heating cooker - Google Patents

Description

TECHNICAL FIELD The present invention relates to a temperature detection device for a heating cooker such as a gas stove, and more particularly, an object detection mechanism for detecting whether or not an object to be heated (for example, a cooking container such as a pot) is placed on a placing portion. It relates to a temperature detection device for a heating cooker.

For example, among gas stoves, there is a gas stove equipped with a temperature detection device that contacts the bottom surface of an object to be heated (for example, a cooking container such as a pot) and detects the temperature thereof.

Among such temperature detection devices, there is a cooking container detection device ( heated object detection mechanism).

Patent Document 1 describes a cooking container detection device provided in a temperature detection device for a heating cooker. A cooking container detection device is described in which a permanent magnet and a reed switch are provided at positions sandwiching a moving path of a magnetic body.

In this cooking vessel detector, the open/closed state of the reed switch is switched between when the magnetic body is positioned between the permanent magnet and the reed switch and when the magnetic body is not positioned between the permanent magnet and the reed switch. It is configured to detect placement and non-placement of the cooking container on the trivet by switching.

That is, in the cooking container detection device of Patent Document 1, the rod is pushed down by the bottom of the cooking container when the cooking container is placed on the trivet and rises by the biasing force of the biasing means when the cooking container is removed. A magnetic body that moves along with the movement of the reed switch is arranged inside a support pipe (cylindrical support), and the support pipe (cylindrical support) is sandwiched in a form that sandwiches the movement path of the magnetic body. and a magnet are provided.

When there is no magnetic substance between the reed switch and the magnet, the magnetic force of the magnet reaches the reed switch, and when there is a magnetic substance between the reed switch and the magnet, the magnetic force of the magnet is blocked by the magnetic substance. The reed switch is switched between ON and OFF depending on whether the cooking container is placed on the trivet or not.

JP 2014-152939 A

By the way, in the case of the temperature detection device for the cooking appliance of Patent Document 1, the temperature detection part moves up and down following the cooking container, and is in contact with the bottom surface of the cooking container so that the temperature can be reliably detected. The temperature detector is urged upward by the urging means.

However, if the biasing force of the biasing means is too large, for example, when a lightweight cooking container such as an aluminum snow pan is placed on the trivet, the temperature detecting portion will not descend and the cooking container will not move onto the trivet. A situation may occur in which placement cannot be properly detected.

In order to prevent such a situation from occurring, it is conceivable to reduce the biasing force of the biasing means. Even when the cooking container is not placed, the temperature detection part does not rise due to the frictional force (sliding resistance) between the rod and the member that guides the rod. As a result, it may not be possible to properly detect that the cooking container is not placed on the trivet (non-placement state).

The present invention solves the above problems, and by reducing the biasing force of the biasing means, it is possible to appropriately detect the placement of the container on the trivet even when using a lightweight cooking container. In addition, a temperature detection device for a heating cooker equipped with an object-to-be-heated detection mechanism capable of appropriately detecting non-placement of a cooking vessel when the cooking vessel is not placed on the trivet. intended to provide

In order to solve the above problems, the temperature detection device for a heating cooker of the present invention comprises:
a tubular support fixedly disposed in the cooking device, the tubular support including one side portion extending in a substantially vertical direction and the other side portion extending continuously from the one side portion;
In a state in which the bottom portion of the object to be heated placed on the placing portion of the heating cooker is in contact with the object to be heated, the object to be heated moves up and down along with the vertical movement of the object to be heated, and the object to be heated is urged to return upward. an elevating body supported by the upper end of the one side of the cylindrical support;
a detector for detecting the temperature of the bottom of the object to be heated; a temperature detection mechanism including a lead wire for transmitting detection information to a control unit;
a reed switch provided on the outer peripheral portion of the other side portion of the tubular support and capable of being switched between a first state and a second state by application of a magnetic field; a magnet disposed on the outer peripheral portion of the other side portion, and a magnet disposed inside the other side portion of the cylindrical support, and moving the reed switch toward or away from the reed switch by moving the reed switch to the second magnet. a heated object detection mechanism including an operation unit that switches between the first state and the second state;
One end is connected to the elevating body, the other end is arranged in the cylindrical support in such a manner as to extend into the other side portion, and along the axial direction of the cylindrical support as the elevating body moves up and down a transmission member that moves within the tubular support;
with
A magnetic shield that shields the magnetic field of the magnet applied to the reed switch by being positioned between the reed switch and the magnet is disposed at a predetermined position of the transmission member as the operating portion. A temperature detection device for a heating cooker,
When the object to be heated is placed on the placing portion, the magnetic shield moves from the one side portion to the other side portion with respect to the arrangement position of the magnet, thereby acting as the reed switch. detaching from the position between the magnets and entering a non-shielding state in which the magnetic field of the magnets applied to the reed switch is not shielded;
When the object to be heated placed on the placing portion is removed and becomes a non-placed state, the magnetic shield is moved from the other side portion to the one side portion with reference to the arrangement position of the magnet. side to be positioned between the reed switch and the magnet to be in a shielding state for shielding the magnetic field of the magnet applied to the reed switch; and
In the shielding state, the magnetic shielding body is positioned biased toward the other side with respect to the arrangement position of the magnet , and the end of the magnetic shielding body on the one side is aligned with the It is characterized in that it is positioned closer to the other side than the end of the magnet on the other side .

In the temperature detection device for a heating cooker of the present invention, when an object to be heated (for example, a cooking container such as a pot) is placed on the placing portion (for example, a trivet), the magnetic shielding body moves the position of the magnet as a reference. As a result, it moves from one side to the other side and leaves the position between the reed switch and the magnet, becomes a non-shielding state where the magnetic field of the magnet applied to the reed switch is not shielded, and is placed on the mounting part When the object to be heated that has been placed is removed and placed in a non-placed state, the magnetic shield moves from the other side to the one side with respect to the position of the magnet, and is positioned between the reed switch and the magnet. and is in a shielding state for shielding the magnetic field of the magnet applied to the reed switch, and in the shielding state, the magnetic shielding body is biased toward the other side with respect to the arrangement position of the magnet. Therefore, when the object to be heated placed on the placement part is removed and the object to be heated is not placed, the attractive force acting between the magnet and the magnetic shield increases, and the object to be heated is removed. By reducing the urging force of the urging means used for urging the lifting body that moves up and down with the vertical movement of the object to return upward, for example, a lightweight object to be heated such as an aluminum snow pan Placement can be reliably detected. Even in the case of such a configuration, when the object to be heated is removed from the placing portion (when it is put into a non-placed state), the magnetic shielding body is moved to a predetermined position (magnet The position where the magnetic force from the heating object can be shielded) can be moved, and it is possible to reliably detect that the object to be heated has been removed from the placing portion (became in a non-placed state).

That is, in the shielded state, when the magnetic shield and the magnet face each other, the magnetic force of the magnet attracts the magnetic shield in the direction of the magnet itself (the direction perpendicular to the axial direction of the other side). However, in the present invention, in the shielding state, the magnetic shield is biased toward the other side with respect to the arrangement position of the magnet. Since it is configured so as to be positioned on the side, the attractive force can be applied to move the magnetic shield toward one side.

As a result, even when the urging force of the urging means for the return urging is reduced, the magnetic shield is moved from the other side to the one side to be positioned between the reed switch and the magnet. The magnetic field of the magnet applied to the reed switch can be reliably shifted to the shielding state shielded by the magnetic shield, and the object to be heated is removed from the mounting section and becomes the non-mounting state. can be reliably detected.

Further, in the temperature detection device for a heating cooker of the present invention, the magnetic shield is positioned biased toward the other side with respect to the position of the magnet in the shielded state (non-placed state). In addition, in the shielded state, the end of the magnetic shield on one side is positioned closer to the other side than the end of the magnet on the other side, so that the magnet and the magnetic shield (attractive force acting to move the magnetic shield from the other side to the one side) can be further increased. When the cooking container is not placed, it is possible to more reliably suppress the problem that the non-placement of the cooking container on the placing part cannot be detected. It is possible to provide a temperature detection device for a heating cooker that includes a heated object detection mechanism with high detection reliability of placement.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing an external configuration of a gas stove provided with a temperature detection device for a cooking device according to one embodiment of the present invention; 1(a) is a perspective view showing a temperature detection device for a heating cooker according to an embodiment of the present invention, and FIG. 1(b) is a perspective view of a main part seen from another angle. BRIEF DESCRIPTION OF THE DRAWINGS It is a side view which shows the temperature detection apparatus for heating cookers concerning one Embodiment of this invention. 1A is a diagram showing a temperature detection device for a heating cooker according to an embodiment of the present invention, and FIG. FIG. 4B is a sectional view taken along line IV-IV in FIG. 3, and (b) is a sectional view taken along line IV-IV in FIG. 3 when the cooking container is placed on the placing portion (placed state); FIG. 1(a) is a diagram schematically showing the main part (the positional relationship between a magnet, a magnetic shield and a reed switch) of a temperature detection device for a heating cooker according to an embodiment of the present invention, and shows an object to be heated; A diagram showing a non-mounted state, (b) is a diagram showing a non-mounted state when configured so that the attraction force of the magnet to the magnetic shield is increased, and (c) is a non-mounted state in the reference example. It is a figure which shows a mounting state. BRIEF DESCRIPTION OF THE DRAWINGS It is a perspective view in the middle of assembly of the temperature detection apparatus for heating cookers concerning one Embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a main part of a temperature detection device for a heating cooker according to an embodiment of the present invention during assembly.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A feature of the present invention will be described in detail below by showing a gas stove (stove with grill) equipped with a temperature detection device for a cooking device according to an embodiment of the present invention.

First, after explaining the basic configuration of a gas stove (stove with grill (cooker)) 100 equipped with a temperature detection device for a cooking device according to the embodiment of the present invention, the characteristic configuration will be explained.

The gas stove 100 according to the embodiment of the present invention, as shown in FIG. This is a built-in type stove with a grill provided with a heating stove burner 32b, a small heating stove burner 32c with a temperature sensor, and a grill 33 used when cooking fish or the like.

Heating state control units 35a, 35b, and 35c are provided on the upper left and upper right sides of the front surface of the case body 101, respectively, for igniting, extinguishing, and adjusting the thermal power of the plurality of stove burners 32a, 32b, and 32c. ing.

More specifically, a heating state control unit 35a for controlling the ignition, extinguishing, and thermal power control of the standard heating stove burner 32a is arranged on the upper left side of the front surface of the case body 101, and on the upper right side. , a heating state control unit 35b for performing ignition, extinguishing, and thermal power adjustment operations for the high-power stove burner 32b, and a heating state control unit 35c for performing ignition, fire-extinguishing, and thermal power adjustment operations for the low-power stove burner 32c. is arranged.

Cooker temperature detection devices 50 (50a, 50b, 50c) (hereinafter sometimes simply referred to as temperature detection devices) are provided for the stove burners 32a, 32b, 32c, respectively. The three temperature detection devices 50 provided in each of the stove burners 32a, 32b, and 32c similarly detect an object to be heated (for example, a cooking container such as a pot) placed on the placing portion (trivet) 40 ( (not shown)) and a heating object detection function of detecting whether or not an object to be heated is placed on the trivet 40 .

Since the temperature detection device 50 (50c) provided in the small-heat stove burner 32c must be arranged above the grill exhaust pipe (not shown) connected to the exhaust port 91, it is necessary to install it in the vertical direction. Since the space is small, the temperature sensing device according to the present invention is used.

Needless to say, the temperature detection device according to the present invention can also be used for the temperature detection device 50 (50a, 50b) of the standard heating power stove burner 32a and the high heating power stove burner 32b.

A temperature detection device for a cooking device according to an embodiment of the present invention will be described below.

As shown in FIGS. 2, 3, 4A, and 4B, the temperature detection device 50 (50c) for the heating cooker according to this embodiment is:
(a) a cylindrical support 51 having a substantially L shape;
(b) an elevating body 55 supported by the upper end of one side portion 51a of the cylindrical support 51 extending in the vertical direction;
(c) A detection unit (temperature detection unit) 60 for detecting the temperature of the bottom of an object to be heated (for example, a cooking container such as a pot), and a lead wire 61 for transmitting detection information of the detection unit 60 to a control unit (not shown). a temperature detection mechanism 62 comprising
(d) A reed switch 65 arranged on the outer periphery of the other side portion 51b extending in the horizontal direction, and a reed switch 65 arranged on the outer periphery of the other side portion 51b so as to face the reed switch 65 via the other side portion 51b. an object-to-be-heated detection mechanism 68 having a magnet 66 that is turned on and an operation portion 67 (FIGS. 4A and 4B) that switches the reed switch 65 between the first state and the second state;
(e) One end is connected to the elevating body 55, and the other end is disposed in the cylindrical support 51 in such a manner as to extend into the other side portion 51b of the cylindrical support 51. and a transmission member 75 that moves within the support 51 .

In this embodiment, a magnetic shield 80 for shielding the magnetic field from the magnet 66 is arranged at a predetermined position of the transmission member 75 so that the magnetic field from the magnet 66 is not applied to the reed switch 65. is configured to function as the operation unit 67 described above.

In the temperature detection device 50 according to this embodiment, the magnetic shield 80 is configured to be positioned inside the tubular support 51 .

As shown in FIGS. 2, 3, 4A, and 4B, the above-described cylindrical support 51 included in the temperature detection device 50 of the present embodiment is a hollow cylindrical member having a substantially L-shape. and the other side portion 51b extending substantially horizontally continuously from the one side portion 51a, and the boundary area between the one side portion 51a and the other side portion 51b It is configured to be a bent portion 51c.

One side portion 51a of the substantially L-shaped tubular support 51 is fixed inside the case body 101 of the grill-equipped stove 100 by a fixing means (not shown). However, the other side portion 51b may be configured to be fixed inside the case body 101 by fixing means.

In addition, the lifting body 55 supported by the upper end of the one side portion 51a of the cylindrical support 51 is used to support an object to be heated (for example, a pot, etc.) placed on the placing portion of the heating cooker (stove with grill) 100. The bottom of a cooking container (not shown) abuts against it, and is configured to move up and down as the object to be heated moves up and down. It is supported by the upper end of one side portion 51a of the cylindrical support 51 in a state of being biased to return.

The detection unit 60 that constitutes the temperature detection mechanism 62 includes a heat collector 60a that contacts the bottom of the object to be heated, and a thermistor (not shown). The temperature detection mechanism 62 also includes a lead wire 61 for transmitting detection information from the detection unit 60 to a control unit (not shown), and the lead wire 61 is connected to a thermistor (see FIG. 2(a)). .

Further, the lead wire 61 is passed through a glass braided tube 75 and protected by the glass braided tube 75 (see FIGS. 2(a) and 2(b)).

In this embodiment, as described above, the glass braided tube 75 functions as a protective member that protects the lead wire 61 and functions as a transmission member that transmits the movement of the lifting body 55. .

In this embodiment, the glass braided tube 75 is configured to function as a transmission member. It is also possible to use the wire itself as a transmission member.

One end of the braided glass tube (transmission member) 75 is connected to the elevating body 55, and the other end is arranged in the tubular support 51 so as to extend to the other side 51b of the tubular support 51. , the glass braided tube (transmission member) 75 moves along the axial direction inside the L-shaped tubular support 51, more specifically, inside the other side portion 51b as the elevating body 55 moves up and down. is configured to

That is, the glass braided tube 75 moves along the axial direction of the cylindrical support 51 along the axial direction of the cylindrical support 51 as the elevating body 55 ascends and descends, so that the object to be heated is placed on the trivet 40 . The up-and-down movement of the lifting body 55 caused by being placed on or removed from the trivet 40 is transmitted to (the operating portion 67 of) the object-to-be-heated detection mechanism 68 .

The glass braided tube 75 corresponds to the lifting operation of the elevating body 55 which moves up and down when the object to be heated is placed on or removed from the placing portion (trivet 40). It has flexibility (deformability) that allows smooth movement in the substantially L-shaped tubular support 51 along its axial direction, and a distance corresponding to the lifting distance of the lifting body 55 . The positional relationship between the reed switch 65 and the operating portion (magnetic shield) 80 (at the axial center of the tubular support 51) (relative positional relationship in the longitudinal direction) can be accurately changed between the close state and the separated state, and the reed switch 65 can be reliably switched between the first state and the second state.

That is, the glass braided tube 75 has appropriate flexibility, and can move smoothly in the cylindrical support 51 along its axial direction so that the elevation of the elevating body 55 can be properly detected as an object to be heated. Since it can be transmitted to the mechanism 68, it does not require a separate cord-like body (piano wire) or the like as a transmission member (see Japanese Patent Application Laid-Open No. 2015-094521). The positional relationship between 65 and the operating portion (magnetic shield) 80 can be accurately changed between the close state and the separated state, and the reed switch 65 can be reliably switched between the first state and the second state.

As described above, the object-to-be-heated detection mechanism 68 includes the reed switch 65 disposed on the outer periphery of the other side portion 51b and the other side portion 51b so as to face the reed switch 65 via the other side portion 51b. 51b, and an operating portion 67 disposed inside the cylindrical support 51 for switching the reed switch 65 between the first state and the second state, and a transmission member. A magnetic shield 80 that shields the magnetic field applied from the magnet 66 to the reed switch 65 is disposed at a predetermined position of 75 and is configured to function as the operation portion 67 described above.

By switching the reed switch 65 between ON (first state) and OFF (second state) as described above, it is possible to detect whether or not an object to be heated is placed. ing.

A lead wire 61 connected to the thermistor is arranged inside the tubular support 51, extends outward from the other side portion 51b of the tubular support 51, and is connected to a control section (not shown). , temperature information on the bottom of an object to be heated (for example, a cooking vessel such as a pot) detected by a thermistor via a heat collector 60a constituting a detection unit 60 is sent to a control unit (see FIG. not shown).

In this embodiment, as described above, the glass braided tube having moderate flexibility is configured to function as the transmission member 75, and the glass braided tube is more flexible than the lead wire 61 connected to the thermistor. Since the (transmission member) 75 is hard to bend, the glass braided tube 75 and the magnetic shield 80 arranged (fixed) on the glass braided tube 75 correspond to the elevation of the elevating body 55 with high accuracy. to move. As a result, the reed switch 65 is reliably switched between the first state and the second state, and the object to be heated (for example, a cooking container such as a pot) can be placed or not placed on the placing portion (trivet) 40. Properly detected.

Next, the object-to-be-heated detection mechanism 68 that constitutes the temperature detection device 50 for the heating cooker according to the embodiment of the present invention will be described.

In the present embodiment, a cylindrical end structure 11 for the other side portion having a reed switch 65 and a magnet 66 disposed on its outer peripheral portion is disposed on the side of the other side portion 51b (FIGS. 3, 4A, 5 and 6).

The other side portion forming body 11 is arranged so as to be fitted to the end portion of the cylindrical support 51 on the side of the other side portion 51b.

In addition, on the outer peripheral portion of the other side portion 51b that constitutes the cylindrical support 51, a recessed flat portion 21, which is a recessed flat portion toward the center in the diametrical direction, is provided (FIGS. 2, 5, and 6). reference).

Furthermore, in the inner peripheral portion 12 of the other side end structure 11, the other side end structure 11 is fitted to the end of the other side 51b forming the cylindrical support 51. , and a protruding flat portion 22 abutting on the retreating flat portion 21 of the other side portion 51b (see FIGS. 2, 5 and 6).

Then, when the retracted flat portion 21 of the other side portion 51b constituting the tubular support 51 and the protruding flat portion 22 of the other side portion forming body 11 abut against each other, the other side constituting the tubular support 51 is brought into contact. The other side portion forming body 11 is maintained in a detent state with respect to the axis of the side portion 51b.

In this manner, the reed switch 65 and the magnet 66 are configured to be prevented from rotating around the axis of the other side portion 51b of the cylindrical support 51. It becomes possible to accurately detect whether or not an object to be heated (for example, a cooking vessel such as a pot) is placed on the (trivet) 40 .

Further, in the temperature detection device 50 for the cooking device according to the present embodiment, the other side portion end structure 11 constituting the holding portion 10 is integrally provided with the reed switch container 65a for accommodating the reed switch 65. (Figs. 5 and 6).

The reed switch container 65a is formed with a mounting surface 69 along the outer peripheral portion 52 of the other side portion 51b of the cylindrical support 51. As shown in FIG. In this embodiment, the mounting surface 69 of the reed switch container 65a is a concave curved surface following the shape of the outer peripheral portion 52 of the cylindrical other side portion 51b.

The holding part 10 is provided with a fixing band 10a, and the magnet 66 is integrally held by the fixing band 10a with the other side end structure 11 constituting the holding part 10. .

In this manner, the reed switch container 65a for accommodating the reed switch 65 is formed integrally with the other side end structure 11, and the other side portion 51b constituting the cylindrical support 51 is formed integrally with the reed switch container 65a. By forming the mounting surface 69 along the outer peripheral portion 52, it is possible to stabilize the positional relationship between the other side portion forming body 11 and the other side portion 51b constituting the cylindrical support 51. As a result, it is possible to more appropriately detect whether or not an object to be heated (for example, a cooking container such as a pot) is placed on the placement section (trivet) 40 .

In addition, since the magnet 66 is integrally held by the other side portion end structure 11 constituting the holding portion 10 by the fixing band 10a, the positional relationship between the magnet 66 and the reed switch 65 is fixed. It is possible to reliably detect whether or not the object to be heated is placed.

<Characteristic configuration>
Next, a characteristic configuration of the temperature detection device 50 for a cooking device according to this embodiment will be described.

In the temperature detection device 50 for a heating cooker according to the present embodiment, (a) when an object to be heated is placed on the placing portion (trivet) 40, as shown in FIG. 80 moves from one side 51a (FIG. 2(a)) to the other side 51b (rightward in FIG. 4A(b)) with respect to the arrangement position of magnet 66, and reed switch 65 and (b) placed on the mounting portion 40; 4A(a), the magnetic shield 80 is moved from the other side 51b to the other side 51b with reference to the arrangement position of the magnet 66, as shown in FIG. 4A(a). 4A (leftward in FIG. 4A ), positioned between the reed switch 65 and the magnet 66, and shielding the magnetic field of the magnet 66 applied to the reed switch 65; is configured to be

In the shielding state, which is the non-mounted state described above, as shown in FIG. In a), it is configured to be biased to the right).

It should be noted that the position of the magnetic shield 80 biased toward the other side portion 51b with respect to the arrangement position of the magnet 66 means that the end portion 80a of the magnetic shield 80 on the one side portion 51a side It does not necessarily mean that it is positioned on the other side portion 51b side (right side in FIG. 4A(a)) from the end portion 66b on the side portion 51b side.

That is, when the magnetic shield 80 is biased toward the other side portion 51b with respect to the arrangement position of the magnet 66, the magnetic shield 80 has an end portion 80a on the one side portion 51a side and the other side portion 51b side. 80G of the magnetic shield 80 (the position that bisects the edge of the magnetic shield 80 between the edge on one side and the edge on the other side (center of gravity)) 80G of the magnetic shield 80 An intermediate position between an end portion 66a on the one side portion 51a side and an end portion 66b on the other side portion 51b side of the magnet 66 (an end portion 66a on the one side portion 51a side and an end portion on the other side portion 51b side of the magnet) When the position (center of gravity position) 66G that bisects the space between the portion 66b and the center of gravity of the magnet is set to the middle position of the magnet, the middle position (center of gravity position) 80G of the magnetic shield 80 is more than the middle position (center of gravity position) 66G of the magnet. It means that it is positioned on the other side portion 51b side (on the right side in FIG. 4A(a)).

As described above, the temperature detection device 50 for a cooking device according to the present embodiment can detect the position of the magnetic shield 80 ( The position of the center of gravity) 80G is on the side of the other side portion 51b (on the right side in FIG. 4A(a)) with respect to the arrangement position (position of the center of gravity) 66G of the magnet 66, that is, the detection portion (temperature detection portion) 60 that detects the temperature. , so that even if the biasing force of biasing means (biasing spring) (not shown) is reduced, it acts between the magnet 66 and the magnetic shield 80. This attractive force generates a force that moves the magnetic shield 80 to the side where the detection unit (temperature detection unit) 60 is arranged (left side in FIG. 4A(a)).

As a result, by reducing the biasing force of the biasing means (biasing spring), it is possible to appropriately detect the placement of a lightweight object to be heated (for example, a snow pan made of aluminum) on the placing portion (trivet) 40. In addition, when no object to be heated is placed on the placing section (trivet) 40, the magnetic shield 80 moves to a position between the reed switch 65 and the magnet 66, and the placing section (trivet) ) 40, the temperature detection device 50 for the heating cooker having the object-to-be-heated detection mechanism 68 capable of appropriately detecting non-placement of the object to be heated can be realized.

Below, with reference to FIGS. The operation of the cooker temperature detection device 50 having the object detection mechanism 68 will be described in more detail.

As shown in FIG. 4B(c), in the aforementioned shielding state (non-placed state), the position (center of gravity position) 80G of the magnetic shield 80 faces the arrangement position (center of gravity position) 66G of the magnet 66. (that is, in the case of a configuration not having the requirements of the present invention), the attractive force of the magnet 66 with respect to the magnetic shield 80 is such that the magnetic shield 80 is on the other side 51b side (the left side in FIG. 4B(c) ), but will act to attract the magnetic shield 80 in the vertical direction.

On the other hand, as shown in FIG. 4B(a), in the shielded state (unmounted state), the magnetic shield 80 is positioned on the other side 51b side (FIG. 4B ( In a), if it is arranged to be biased to the right side), the attractive force acting between the magnet 66 and the magnetic shielding body 80 causes the magnetic shielding body 80 to be placed in the detection section (temperature detection section) 60. A force is generated to move it to the side where it is provided (left side in FIG. 4B(a)).

Further, in the temperature detection device of the present invention, the magnetic shield 80 is positioned on the other side 51b side (on the right side in FIG. 4A(a)) with respect to the arrangement position of the magnet 66 in the shielded state (non-placed state). In addition to being biased, in the shielding state (unmounted state), the one side portion 51a side of the magnetic shield 80 (Fig. 4B(b) ) is positioned closer to the other side 51b (right side in FIG. 4B(b)) than the end 66b of the magnet 66 on the other side 51b side (right side in FIG. 4B(b)). is configured to Note that the reed switch 65 is shielded from the magnetic field of the magnet 66 by the magnetic shield 80 even in the state of FIG. 4B(b).
With such a configuration , it becomes possible to further increase the attractive force acting between the magnet 66 and the magnetic shield 80, so that the object to be heated is placed on the placing portion (trivet) 40. It is possible to more reliably suppress the problem that the non-placement of the object to be heated on the placement unit 40 cannot be detected when the object to be heated is not placed.

Therefore, according to the present invention, it is possible to realize a temperature detection device for a heating cooker having a heating object detection mechanism with high reliability in detecting placement or non-placement of an object to be heated.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the present invention.

REFERENCE SIGNS LIST 10 holding part 10a fixing band 11 end structure for the other side 12 inner periphery of the end structure for the other side 21 flat retirement part 22 raised flat part 32a standard heating stove burner 32b high heating stove burner 32c small heating stove Burner 33 Grill 35a Heating condition adjusting part of standard heating stove burner 35b Heating condition adjusting part of high heating power stove burner 35c Heating condition adjusting part of low heating power stove burner 40 Trivet (mounting part)
50 (50a, 50b, 50c) temperature detection device for heating cooker 51 cylindrical support 51a one side of cylindrical support 51b other side of cylindrical support 51c bent portion of cylindrical support 52 other side 55 lifting body 60 detection unit (temperature detection unit)
60a heat collector 61 lead wire 62 temperature detection mechanism 65 reed switch 65a reed switch container 66 magnet 66a end of magnet on one side 66b end of magnet on the other side 66G center of gravity position of magnet 67 operation part 68 subject Heated object detection mechanism 69 Mounting surface 75 Transmission member (glass braided tube)
80 Magnetic Shield 80a End of Magnetic Shield on One Side 80b End of Magnetic Shield on Other Side 80G Position of Center of Gravity of Magnetic Shield 91 Exhaust Port 100 Grill Stove (Cooker)
101 Case body (stove body)

Claims (1)

a tubular support fixedly disposed in the cooking device, the tubular support including one side portion extending in a substantially vertical direction and the other side portion extending continuously from the one side portion;
In a state in which the bottom portion of the object to be heated placed on the placing portion of the heating cooker is in contact with the object to be heated, the object to be heated moves up and down along with the vertical movement of the object to be heated, and the object to be heated is urged to return upward. an elevating body supported by the upper end of the one side of the cylindrical support;
a detector for detecting the temperature of the bottom of the object to be heated; a temperature detection mechanism including a lead wire for transmitting detection information to a control unit;
a reed switch provided on the outer peripheral portion of the other side portion of the tubular support and capable of being switched between a first state and a second state by application of a magnetic field; a magnet disposed on the outer peripheral portion of the other side portion, and a magnet disposed inside the other side portion of the cylindrical support, and moving the reed switch toward or away from the reed switch by moving the reed switch to the second magnet. a heated object detection mechanism including an operation unit that switches between the first state and the second state;
One end is connected to the elevating body, the other end is arranged in the cylindrical support in such a manner as to extend into the other side portion, and along the axial direction of the cylindrical support as the elevating body moves up and down a transmission member that moves within the tubular support;
with
A magnetic shield that shields the magnetic field of the magnet applied to the reed switch by being positioned between the reed switch and the magnet is disposed at a predetermined position of the transmission member as the operating portion. A temperature detection device for a heating cooker,
When the object to be heated is placed on the placing portion, the magnetic shield moves from the one side portion to the other side portion with respect to the arrangement position of the magnet, thereby acting as the reed switch. detaching from the position between the magnets and entering a non-shielding state in which the magnetic field of the magnets applied to the reed switch is not shielded;
When the object to be heated placed on the placing portion is removed and becomes a non-placed state, the magnetic shield is moved from the other side portion to the one side portion with reference to the arrangement position of the magnet. side to be positioned between the reed switch and the magnet to be in a shielding state for shielding the magnetic field of the magnet applied to the reed switch; and
In the shielding state, the magnetic shielding body is positioned biased toward the other side with respect to the arrangement position of the magnet , and the end of the magnetic shielding body on the one side is aligned with the A temperature detection device for a heating cooker, wherein the temperature detection device is configured to be positioned closer to the other side than an end of the magnet on the other side .

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